CN107422957B

CN107422957B - Terminal rear cover pattern display method and device

Info

Publication number: CN107422957B
Application number: CN201710622527.1A
Authority: CN
Inventors: 叶利; 钟进贵
Original assignee: Yulong Computer Telecommunication Scientific Shenzhen Co Ltd
Current assignee: Yulong Computer Telecommunication Scientific Shenzhen Co Ltd
Priority date: 2017-07-27
Filing date: 2017-07-27
Publication date: 2020-10-16
Anticipated expiration: 2037-07-27
Also published as: CN107422957A

Abstract

The embodiment of the invention discloses a method for displaying patterns of a rear cover of a terminal, which comprises the following steps: receiving a power-on instruction aiming at the rear cover of the electric control luminescent glass; acquiring display parameters carried by the electrifying instruction and associated with the rear cover of the electronic control luminous glass; and controlling the rear cover of the electric control luminescent glass to display a display pattern corresponding to the display parameter according to the display parameter. Correspondingly, the embodiment of the invention also discloses a device for displaying the pattern of the rear cover of the terminal. By adopting the method and the device, the rear cover of the terminal can be controlled to display the designated pattern without reducing the overall aesthetic property of the terminal.

Description

Terminal rear cover pattern display method and device

Technical Field

The invention relates to the technical field of computer application, in particular to a method and a device for displaying a pattern of a rear cover of a terminal.

Background

At present, the outer surface of a rear cover of terminal equipment (such as a mobile phone, a tablet personal computer and the like) is only used for displaying basic information related to a terminal, such as a manufacturer mark, a terminal model and the like, and the design is rigid and personalized. For reasons of aesthetics, distinction from other users' terminals, etc., users often choose to additionally overlay a housing with a fine design or unique design on the rear cover of the terminal. In the past, manufacturers have been dedicated to reduce the thickness of the terminal body to reduce the weight of the terminal, improve the appearance of the terminal, and make the terminal easier to carry, but the stacked housing increases the thickness of the terminal body, which affects the overall aesthetic property of the terminal.

Disclosure of Invention

The technical problem to be solved by the embodiments of the present invention is to provide a method and an apparatus for displaying a pattern on a rear cover of a terminal, which can control the rear cover of the terminal to display a specified pattern without reducing the overall aesthetic property of the terminal.

In order to solve the above technical problem, an embodiment of the present invention provides a method for displaying a pattern on a rear cover of a terminal, where the method includes:

receiving a power-on instruction aiming at the rear cover of the electric control luminescent glass;

acquiring display parameters carried by the electrifying instruction and associated with the rear cover of the electronic control luminous glass;

and controlling the rear cover of the electric control luminescent glass to display a display pattern corresponding to the display parameter according to the display parameter.

Optionally, the controlling, according to the display parameter, the rear cover of the electrically controlled light emitting glass to display a display pattern corresponding to the display parameter specifically includes:

according to the display parameters, determining a target light-emitting diode in the rear cover of the electric control light-emitting glass and light-emitting parameters of the target light-emitting diode;

according to the light-emitting parameters, conducting a target circuit associated with the target light-emitting diode so as to enable the target light-emitting diode to emit light according to the light-emitting parameters;

the lighting parameters include one or more of a flicker frequency parameter, a color parameter, and a brightness parameter.

Optionally, the receiving a power-on instruction for the electrically controlled light emitting glass rear cover includes:

detecting a first preset opening operation aiming at the pattern display function of the electronic control luminescent glass rear cover;

and when the first preset starting operation is detected, triggering a first power-on instruction, wherein the first power-on instruction carries display parameters of a preset display pattern.

detecting a second preset opening operation aiming at the pattern display function of the electronic control luminescent glass rear cover;

when the second preset starting operation is detected, outputting a pattern selection interface, wherein the pattern selection interface comprises a plurality of alternative display patterns;

and receiving a pattern selection operation from the pattern selection interface, and triggering a second power-on instruction, wherein the second power-on instruction carries the display parameters of the target candidate display pattern indicated by the pattern selection operation.

detecting a third opening operation aiming at the pattern display function of the electric control luminescent glass rear cover;

when the third opening operation is detected, triggering a target electrifying instruction according to a preset mapping relation between the opening operation and a display pattern, wherein the target electrifying instruction carries the display parameters of the target display pattern corresponding to the third opening operation.

Correspondingly, the embodiment of the invention also provides a device for displaying the pattern of the rear cover of the terminal, which comprises:

the receiving module is used for receiving a power-on instruction aiming at the electric control luminescent glass rear cover;

the acquisition module is used for acquiring display parameters which are carried by the electrifying instruction received by the receiving module and are associated with the rear cover of the electronic control luminous glass;

and the control module is used for controlling the rear cover of the electric control luminescent glass to display a display pattern corresponding to the display parameter according to the display parameter acquired by the acquisition module.

Optionally, the control module comprises:

the determining unit is used for determining a target light emitting diode in the electronic control light emitting glass rear cover and light emitting parameters of the target light emitting diode according to the display parameters acquired by the acquiring module;

the conducting unit is used for conducting a target circuit associated with the target light emitting diode determined by the determining unit according to the light emitting parameter determined by the determining unit so that the target light emitting diode emits light according to the light emitting parameter;

Optionally, the receiving module includes:

the first detection unit is used for detecting a first preset opening operation aiming at the pattern display function of the electronic control luminescent glass rear cover;

the first trigger unit is used for triggering a first power-on instruction when the first detection unit detects the first preset starting operation, and the first power-on instruction carries display parameters of a preset display pattern.

Optionally, the receiving module further includes:

the second detection unit is used for detecting a second preset starting operation aiming at the pattern display function of the electronic control luminescent glass rear cover;

the output unit is used for outputting a pattern selection interface when the second detection unit detects the second preset starting operation, and the pattern selection interface comprises a plurality of alternative display patterns;

and the second trigger unit is used for receiving a pattern selection operation from the pattern selection interface output by the output unit and triggering a second power-on instruction, wherein the second power-on instruction carries the display parameters of the target candidate display pattern indicated by the pattern selection operation.

Optionally, the receiving module further includes:

the third detection unit is used for detecting a third opening operation aiming at the pattern display function of the electric control luminescent glass rear cover;

and the third trigger unit is used for triggering a target electrifying instruction according to a preset mapping relation between the opening operation and the display pattern when the third detection unit detects the third opening operation, wherein the target electrifying instruction carries the display parameters of the target display pattern corresponding to the third opening operation.

The embodiment of the invention has the following beneficial effects:

the embodiment of the invention sets the rear cover of the terminal as the rear cover of the electric control luminous glass, so that the terminal can control whether the rear cover of the electric control luminous glass is electrified or not, and controls the rear cover of the electric control luminous glass to display the display pattern corresponding to the display parameter according to the display parameter acquired from the electrifying instruction received from the terminal under the condition of electrifying, thereby controlling the rear cover of the terminal to display the appointed pattern under the condition of not reducing the integral aesthetic property of the terminal.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic flowchart of a method for displaying a pattern of a rear cover of a terminal according to an embodiment of the present invention;

fig. 2 is a schematic flowchart of another method for displaying a rear cover pattern of a terminal according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a terminal rear cover pattern display device according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of another terminal rear cover pattern display device according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of an intelligent terminal according to an embodiment of the present invention.

Detailed Description

Embodiments of the present invention will be described below with reference to the accompanying drawings.

The term "comprises" and any variations thereof in the description and claims of the present invention are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

It should be understood that the technical solution of the embodiment of the present invention may be specifically applied to an intelligent terminal with a rear cover, where the intelligent terminal may be, for example, a Mobile phone (e.g., an Android Mobile phone, an iOS Mobile phone, etc.), a tablet computer, a desktop computer, a Mobile Internet Device (MID), a Personal Digital Assistant (PDA), and other terminal Devices. The intelligent terminal may also be referred to as User Equipment (UE) or a terminal.

Light-Emitting Diode (LED) glass, also known as electrified Light-Emitting glass and electric control Light-Emitting glass, has the characteristics of permeability, explosion resistance, water resistance, ultraviolet resistance, designability and the like, and is mainly used in the fields of indoor and outdoor decoration, furniture design, lamp tube illumination design, outdoor curtain wall glass, sunlight room design and the like. Due to the characteristic of energy conservation of the LED, the electric control luminescent glass saves electricity, saves energy and protects environment.

In the specific implementation, a pattern can be designed in the electric control luminescent glass in advance, and the controllable change can be realized by a Digital Multiplex (DMX) all-Digital intelligent technology in the later period, so that the light and shade change of the LED light source can be controlled freely. The electric control luminescent glass adopts a completely transparent conducting wire inside, is different from a common metal wire, and can not see any circuit on the surface of the glass.

The invention adopts the electric control luminescent glass as the rear cover (namely the battery cover) of the terminal. Transparent circuit and LED dot matrix light source have inside automatically controlled luminescent glass back cover, and the chip of integrated control automatically controlled luminescent glass simultaneously on the terminal mainboard realizes the circular telegram/outage of automatically controlled luminescent glass through terminal interface and/or terminal button. When the rear cover of the electric control luminous glass is in a power-off state, the original texture pattern and color of the surface of the glass are displayed; after the electric control luminous glass rear cover is electrified, a user can select a pattern to be displayed on a terminal interface, so that the pattern is displayed on the electric control luminous glass rear cover, and the terminal is enabled to be more attractive and personalized while the overall appearance of the terminal is ensured to be unchanged. In the concrete implementation, if the thickness of the rear cover of the electric control luminous glass is the same as that of the rear cover of the existing terminal or is smaller than that of the rear cover of the existing terminal, the thickness of the machine body can be unchanged or even reduced, and the overall appearance of the terminal is unchanged or even more attractive. Further specifically, if the weight of the rear cover of the electrically-controlled light-emitting glass is the same as or less than that of the existing rear cover of the terminal, the invention can also realize that the weight of the terminal is not changed or even reduced.

Fig. 1 is a schematic flow chart illustrating a method for displaying a pattern of a rear cover of a terminal according to an embodiment of the present invention. Specifically, the steps included in the method may be executed by the intelligent terminal described above. The method as shown in fig. 1 may include:

s101, the terminal receives a power-on instruction for the electric control luminescent glass rear cover.

Optionally, when the electrically controlled luminescent glass rear cover is in the power-off state, the terminal may receive a power-on instruction for the electrically controlled luminescent glass rear cover. Assuming that an LED dot matrix light source inside the electrically controlled light emitting glass rear cover is specially designed for a specific preset display pattern (such as a user-customized character or pattern), when the electrically controlled light emitting glass rear cover is in a power-off state, a user can turn on a pattern display function for the electrically controlled light emitting glass rear cover by executing a first preset turn-on operation. When the terminal detects a first preset opening operation aiming at the pattern display function of the electronic control luminescent glass rear cover, a first electrifying instruction is triggered. Wherein, the first preset opening operation may include but is not limited to: the user clicks an opening/closing virtual button aiming at the pattern display function of the electric control luminous glass rear cover in a menu option of the terminal setting function, clicks a display icon aiming at the pattern display function of the electric control luminous glass rear cover in a shortcut menu of the terminal, and clicks a terminal entity key aiming at the pattern display function of the electric control luminous glass rear cover. The first power-on command carries the display parameters of the preset display pattern.

Optionally, when the LED dot matrix light source inside the electronic control luminescent glass rear cover can display various patterns, if the electronic control luminescent glass rear cover is in a power-off state, the user can open the pattern display function for the electronic control luminescent glass rear cover by executing a second preset opening operation. And when the terminal detects a second preset starting operation aiming at the pattern display function of the electronic control luminescent glass rear cover, outputting a pattern selection interface, wherein the pattern selection interface comprises a plurality of alternative display patterns. The user can select one of the alternative display patterns as a target alternative display pattern on the pattern selection interface by performing a pattern selection operation, and of course, the multiple alternative patterns are patterns that can be displayed by the rear cover of the electrically controlled light-emitting glass. When the terminal detects a pattern selection operation, a second power-on instruction is triggered. The second preset opening operation may include that the user clicks an open/close virtual button for the pattern display function of the rear cover of the electrically controlled light emitting glass in a menu option of the terminal setting function, and the second power-on instruction carries a display parameter of the target candidate display pattern selected by the user on the pattern selection interface.

Further optionally, when the LED dot matrix light source inside the rear cover of the electrically controlled light emitting glass can display various patterns, if the rear cover of the electrically controlled light emitting glass is in a power-off state, the user can open the pattern display function for the rear cover of the electrically controlled light emitting glass by executing a target preset opening operation. When the terminal detects a target preset opening operation aiming at the pattern display function of the electric control luminescent glass rear cover, a target electrifying instruction is triggered according to the mapping relation between the preset opening operation and the display pattern. The target preset starting operation may include that a user clicks a target position in a terminal interface for starting a pattern display function for the electrically-controlled light-emitting glass rear cover, and a target power-on instruction carries a display parameter of a target display pattern corresponding to the target preset starting operation.

And S102, the terminal acquires display parameters carried by the electrifying instruction and associated with the rear cover of the electric control luminescent glass.

When receiving a power-on instruction for the electrically-controlled luminescent glass rear cover, the terminal can analyze the power-on instruction, so as to obtain the display parameters carried by the power-on instruction and associated with the electrically-controlled luminescent glass rear cover from the power-on instruction. Optionally, the display parameters associated with the electrically controlled light emitting glass rear cover may include the identifiers of the LEDs to be displayed and the light emitting parameters corresponding to the respective target LED identifiers.

S103, the terminal controls the rear cover of the electric control luminescent glass to display a display pattern corresponding to the display parameter according to the display parameter.

Specifically, the terminal can determine the target LED in the electrically controlled light emitting glass rear cover and the light emitting parameters of the target LED according to the target LED identifiers in the acquired display parameters and the light emitting parameters corresponding to the target LED identifiers. According to the light-emitting parameters, the terminal can conduct the target circuit associated with the determined target LED so that the target LED emits light according to the light-emitting parameters, and therefore the rear cover of the electronic control light-emitting glass displays the display patterns corresponding to the display parameters. Wherein the lighting parameters may include, but are not limited to: a flicker frequency parameter, a color parameter, and a brightness parameter.

In the embodiment of the invention, the terminal rear cover is set as the electric control luminous glass rear cover, so that the terminal can control whether the electric control luminous glass rear cover is electrified or not, and the electric control luminous glass rear cover is controlled to display the display pattern corresponding to the display parameter according to the display parameter acquired from the electrifying instruction received from the terminal under the condition of electrification, and the terminal can control the terminal rear cover to display the appointed pattern under the condition of not reducing the integral aesthetic property of the terminal.

Fig. 2 is a schematic flow chart illustrating another method for displaying a pattern of a rear cover of a terminal according to an embodiment of the present invention. Specifically, the steps included in the method may be executed by the intelligent terminal described above. The method as shown in fig. 2 may include:

s201, the terminal receives a power-on instruction for the electric control luminescent glass rear cover.

Optionally, when the electrically controlled luminescent glass rear cover is in the power-off state, the terminal may receive a power-on instruction for the electrically controlled luminescent glass rear cover. For example, assuming that the LED dot matrix light source inside the electrically controlled light emitting glass rear cover is specially designed for a specific preset display pattern (such as a user-customized text or pattern), when the electrically controlled light emitting glass rear cover is in the power-off state, the user can turn on the pattern display function for the electrically controlled light emitting glass rear cover by performing a first preset turn-on operation. When the terminal detects a first preset opening operation aiming at the pattern display function of the electronic control luminescent glass rear cover, a first electrifying instruction is triggered. Wherein, the first preset opening operation may include, but is not limited to: the user clicks an opening/closing virtual button aiming at the pattern display function of the electric control luminous glass rear cover in a menu option of the terminal setting function, clicks a display icon aiming at the pattern display function of the electric control luminous glass rear cover in a shortcut menu of the terminal, and clicks a terminal entity key aiming at the pattern display function of the electric control luminous glass rear cover. The first power-on command carries the display parameters of the preset display pattern.

In a specific implementation, the second preset opening operation may further include that the user clicks a pattern selection menu option for the pattern display function of the electrically controlled light emitting glass rear cover in the terminal setting function. And when the terminal detects a second preset opening operation aiming at the pattern selection menu option, outputting a pattern selection interface, wherein the pattern selection interface comprises a plurality of alternative display patterns. The user may select one of the candidate display patterns as a target candidate display pattern on the pattern selection interface by performing a pattern selection operation. When the terminal detects a pattern selection operation, a second power-on instruction is triggered. The second power-on instruction carries display parameters of the target candidate display pattern selected by the user on the pattern selection interface. In this case, if the rear cover of the electrically controlled light emitting glass is in the power-off state, the user can enable the terminal to conduct the rear cover of the electrically controlled light emitting glass by executing a second preset operation and enable the rear cover of the electrically controlled light emitting glass to display a pattern selected by the user; if the rear cover of the electronic control luminous glass is in the power-on state, a user can update the currently displayed pattern to the pattern selected by the user executing the second preset operation last time by executing the second preset operation.

Further optionally, when the LED dot matrix light source inside the rear cover of the electrically controlled light emitting glass can display various patterns, if the rear cover of the electrically controlled light emitting glass is in a power-off state, the user can open the pattern display function for the rear cover of the electrically controlled light emitting glass by executing a target preset opening operation. When the terminal detects a target preset opening operation aiming at the pattern display function of the electric control luminescent glass rear cover, a target electrifying instruction is triggered according to the mapping relation between the preset opening operation and the display pattern. Wherein the target preset opening operation may include: and clicking a target position in a terminal interface for starting the pattern display function of the rear cover of the electric control light-emitting glass by a user, and carrying the display parameters of the target display pattern corresponding to the target preset starting operation on the target electrifying instruction. The on/off virtual button for the pattern display function of the electrically controlled light emitting glass rear cover is moved to the target position. The terminal can also establish and preset a mapping relation between the opening operation and the display pattern when receiving the electrifying instruction aiming at the electric control luminescent glass rear cover. For example, assuming that the electrically controlled luminescent glass rear cover can display 3 patterns, respectively pattern 1, pattern 2 and pattern 3, the on/off virtual button can be located at 4 different positions, respectively position 1, position 2, position 3 and position 4. The mapping relationship between the opening operation and the display pattern may be: when the opening/closing virtual button is positioned at the position 4, the rear cover of the electric control luminous glass is in a power-off state, and original texture patterns and colors of the outer surface of the rear cover of the electric control luminous glass are displayed; when a user clicks the position 1, the electrically-controlled luminescent glass rear cover displays a pattern 1; when a user clicks the position 2, the pattern 2 is displayed on the rear cover of the electric control luminescent glass; when the user clicks on the position 3, the electrically controlled luminescent glass back cover displays the pattern 3. The target power-on command carries display parameters of a target display pattern corresponding to the third opening operation. The target preset operation may include: user click position 1, user click position 2 or user click position 3. In this case, if the rear cover of the electrically controlled light emitting glass is in the power-off state, the user can enable the terminal to conduct the rear cover of the electrically controlled light emitting glass by executing a target preset operation and enable the rear cover of the electrically controlled light emitting glass to display a pattern corresponding to the target preset operation; if the rear cover of the electronic control luminous glass is in the power-on state, a user can update the currently displayed pattern to the pattern selected by the user to execute the latest target preset operation by executing the target preset operation.

S202, the terminal obtains display parameters carried by the electrifying instruction and associated with the rear cover of the electric control luminescent glass.

In the specific implementation, the terminal stores display parameters corresponding to all patterns which can be displayed by the electronic control luminescent glass rear cover. When receiving an energization instruction for the electrically-controlled luminescent glass rear cover, the terminal can analyze the energization instruction, so as to obtain the display parameters carried by the energization instruction and associated with the electrically-controlled luminescent glass rear cover from the energization instruction or from a terminal memory. Optionally, the display parameters associated with the electrically controlled light emitting glass rear cover may include the identification of the target LED to be displayed, and the light emitting parameters corresponding to each target LED identification.

S203, the terminal determines a target light emitting diode in the rear cover of the electric control light emitting glass and the light emitting parameter of the target light emitting diode according to the display parameter.

Specifically, the terminal can determine the target LED in the electrically controlled light emitting glass rear cover and the light emitting parameters of the target LED according to the target LED identifiers in the acquired display parameters and the light emitting parameters corresponding to the target LED identifiers.

And S204, the terminal conducts a target circuit associated with the target light-emitting diode according to the light-emitting parameter so that the target light-emitting diode emits light according to the light-emitting parameter, and the electric control light-emitting glass rear cover displays the preset display pattern.

According to the light-emitting parameters, the terminal can conduct the target circuit associated with the determined target LED so that the target LED emits light according to the light-emitting parameters, and therefore the rear cover of the electronic control light-emitting glass displays the display patterns corresponding to the display parameters. Optionally, the lighting parameters may include, but are not limited to: a flicker frequency parameter, a color parameter, and a brightness parameter. The flicker frequency parameter determines the flicker speed of the LED, and when the flicker frequency is very low, static patterns are seen by naked eyes; when the flicker frequency is high, a dynamic pattern can be seen. The color parameters may be gray scale parameters of respective colors of the three primary colors red, green and blue. The LEDs may display different colors based on different gray scale parameters. The brightness parameter determines the brightness of the lit LED.

In specific implementation, when a user wants that the electrically controlled light emitting glass rear cover only displays the original texture pattern and color of the electrically controlled light emitting glass rear cover, the pattern display function for the electrically controlled light emitting glass rear cover can be closed, so that the terminal can perform power-off operation on the electrically controlled light emitting glass rear cover. When the electric quantity of the terminal is lower, the terminal can automatically perform power-off operation on the rear cover of the electronic control luminescent glass, so that the energy-saving effect is achieved, and the battery endurance time of the terminal is prolonged.

Fig. 3 is a schematic structural diagram of a terminal rear cover pattern display device according to an embodiment of the present invention. Specifically, the device may be configured in the intelligent terminal described above. The apparatus 300 as shown in fig. 3 may comprise: a receiving module 301, an obtaining module 302 and a control module 303. Wherein the content of the first and second substances,

the receiving module 301 is configured to receive an energization instruction for the electrically controlled light emitting glass rear cover.

An obtaining module 302, configured to obtain a display parameter, which is carried by the power-on instruction received by the receiving module 301 and is associated with the rear cover of the electrically controlled light emitting glass.

And a control module 303, configured to control the electronically controlled light emitting glass rear cover to display a display pattern corresponding to the display parameter according to the display parameter acquired by the acquisition module 302.

It should be noted that, for a specific work flow of the apparatus 300 according to the embodiment of the present invention, please refer to a flow portion of a terminal rear cover pattern display method shown in fig. 1 of the present application, which is not described herein again.

Fig. 4 is a schematic structural diagram of another terminal rear cover pattern display device according to an embodiment of the present invention. Specifically, the device may be configured in the intelligent terminal described above. The apparatus 400 as shown in fig. 4 may comprise: a receiving module 401, an obtaining module 402 and a control module 403. Wherein the content of the first and second substances,

the receiving module 401 is configured to receive an energization instruction for the electrically controlled light emitting glass rear cover.

Optionally, the receiving module 401 may specifically include:

a first detection unit 404, configured to detect a first preset opening operation for the pattern display function of the electronically controlled light emitting glass rear cover;

the first triggering unit 405 is configured to trigger a first power-on instruction when the first detecting unit 404 detects the first preset opening operation, where the first power-on instruction carries display parameters of a preset display pattern.

Optionally, the receiving module 401 may further specifically include:

a second detection unit 406, configured to detect a second preset opening operation for the pattern display function of the electronically controlled luminescent glass rear cover;

an output unit 407, configured to output a pattern selection interface when the second detection unit 406 detects the second preset opening operation, where the pattern selection interface includes a plurality of candidate display patterns;

the second triggering unit 408 is configured to receive a pattern selection operation from the pattern selection interface output by the output unit 407, and trigger a second power-on instruction, where the second power-on instruction carries a display parameter of the target candidate display pattern indicated by the pattern selection operation.

Optionally, the receiving module 401 may further specifically include:

a third detection unit 409 for detecting a third opening operation for the pattern display function of the electrically controlled luminescent glass rear cover;

a third triggering unit 410, configured to trigger a target power-on instruction according to a mapping relationship between a preset opening operation and a display pattern when the third detecting unit 409 detects the third opening operation, where the target power-on instruction carries a display parameter of a target display pattern corresponding to the third opening operation.

An obtaining module 402, configured to obtain a display parameter, which is carried by the power-on instruction received by the receiving module 401 and is associated with the rear cover of the electrically controlled light emitting glass.

A control module 403, configured to control the electrically controlled light emitting glass rear cover to display a display pattern corresponding to the display parameter according to the display parameter acquired by the acquisition module 402.

Optionally, the control module 403 may specifically include:

a determining unit 411, configured to determine, according to the display parameter acquired by the acquiring module 402, a target light emitting diode in the rear cover of the electrically controlled light emitting glass and a light emitting parameter of the target light emitting diode, where the light emitting parameter includes one or more of a flicker frequency parameter, a color parameter, and a brightness parameter;

and a conducting unit 412, configured to conduct, according to the light-emitting parameter determined by the determining unit 411, a target line associated with the target light-emitting diode determined by the determining unit 411, so that the target light-emitting diode emits light according to the light-emitting parameter.

It should be noted that, for a specific work flow of the apparatus 400 according to the embodiment of the present invention, please refer to a flow portion of a terminal rear cover pattern display method shown in fig. 2 of the present application, which is not described herein again.

Fig. 5 is a schematic structural diagram of an intelligent terminal according to an embodiment of the present invention. In particular, the intelligent terminal may be the intelligent terminal described above. The smart terminal 500 as shown in fig. 5 may include at least one memory 501, at least one processor 502, at least one communication interface 503, and at least one user interface 504. Wherein, the communication interface 503 can be used for the intelligent terminal 500 to communicate with other devices, and the user interface 504 can be used for the intelligent terminal 500 to interact with the user.

The Memory 501 may include a Volatile Memory (VM), such as a Random Access Memory (RAM); the Memory may also include a Non-volatile Memory (NVM), such as a Flash Memory (FM), a Hard Disk (Hard Disk Drive, HDD) or a Solid-State Drive (SSD); the memory 501 may also comprise a combination of memories of the kind described above.

The processor 502 may be a Central Processing Unit (CPU).

Optionally, the memory 501 is also used for storing program instructions. The processor 502 may invoke the program instructions to implement the method for displaying the pattern of the rear cover of the terminal as shown in the embodiments of fig. 1 and 2 of the present application.

Specifically, the processor 502 calls a program instruction stored in the memory 501 for receiving a power-on instruction for the electrically controlled light emitting glass rear cover; acquiring display parameters carried by the electrifying instruction and associated with the rear cover of the electronic control luminous glass; and controlling the rear cover of the electrically-controlled luminescent glass to display a display pattern corresponding to the display parameter according to the display parameter.

Optionally, the processor 502 calls a program instruction stored in the memory 501 to execute the steps of controlling the electrically controlled light emitting glass rear cover to display a display pattern corresponding to the display parameter according to the display parameter, and specifically determining a target light emitting diode in the electrically controlled light emitting glass rear cover and a light emitting parameter of the target light emitting diode according to the display parameter; according to the light-emitting parameters, conducting a target circuit associated with the target light-emitting diode so as to enable the target light-emitting diode to emit light according to the light-emitting parameters; the lighting parameters include one or more of a flicker frequency parameter, a color parameter, and a brightness parameter.

Optionally, the processor 502 calls a program instruction stored in the memory 501 to execute receiving a power-on instruction for the electrically controlled light emitting glass rear cover, specifically, to detect a first preset opening operation for the pattern display function of the electrically controlled light emitting glass rear cover; and when the first preset starting operation is detected, triggering a first power-on instruction, wherein the first power-on instruction carries the display parameters of the preset display pattern.

Further optionally, the processor 502 calls a program instruction stored in the memory 501 to execute receiving a power-on instruction for the electrically controlled light emitting glass rear cover, specifically to detect a second preset opening operation for the pattern display function of the electrically controlled light emitting glass rear cover; when the second preset starting operation is detected, outputting a pattern selection interface, wherein the pattern selection interface comprises a plurality of alternative display patterns; and receiving a pattern selection operation from the pattern selection interface, and triggering a second power-on instruction, wherein the second power-on instruction carries the display parameters of the target candidate display pattern indicated by the pattern selection operation.

Further optionally, the processor 502 calls a program instruction stored in the memory 501 to execute receiving a power-on instruction for the electrically controlled light emitting glass rear cover, specifically, to detect a third opening operation for the pattern display function of the electrically controlled light emitting glass rear cover; when the third opening operation is detected, a target electrifying instruction is triggered according to the preset mapping relation between the opening operation and the display pattern, and the target electrifying instruction carries the display parameters of the target display pattern corresponding to the third opening operation.

In the embodiment of the present invention, the rear cover of the terminal is set as the electrically controlled light emitting glass rear cover, and the processor 502 may call a program instruction stored in the memory 501, so that the terminal can control whether the electrically controlled light emitting glass rear cover is powered on, and control the electrically controlled light emitting glass rear cover to display a display pattern corresponding to a display parameter according to the display parameter acquired from a power-on instruction received from the terminal when the electrically controlled light emitting glass rear cover is powered on, so that the terminal can control the rear cover of the terminal to display a specified pattern without reducing the overall aesthetic property of the terminal.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by a computer program, which can be stored in a computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. The storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), a RAM, or the like.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention.

Claims

1. A method for displaying a pattern on a rear cover of a terminal, the method comprising:

receive the circular telegram instruction to automatically controlled luminescent glass back cover, include: detecting a third opening operation aiming at the pattern display function of the electric control luminescent glass rear cover; when the third opening operation is detected, triggering a target electrifying instruction according to a preset mapping relation between the opening operation and a display pattern, wherein the target electrifying instruction carries display parameters of a target display pattern corresponding to the third opening operation; the third opening operation comprises moving an opening/closing virtual button aiming at the pattern display function of the electric control luminescent glass rear cover to a target position, wherein the target position is any one of a plurality of positions displayed on a terminal interface corresponding to the pattern display function, and the plurality of positions are determined according to a plurality of preset display patterns;

2. The method according to claim 1, wherein the controlling the electrically controlled light emitting glass rear cover to display the display pattern corresponding to the display parameter according to the display parameter specifically comprises:

3. The method according to claim 1 or 2, wherein the receiving of the power-on command for the electrically controlled luminescent glass rear cover comprises:

4. The method according to claim 1 or 2, wherein the receiving of the power-on command for the electrically controlled luminescent glass rear cover comprises:

5. A terminal rear cover pattern display device, comprising:

the receiving module further comprises: a third detection unit and a third trigger unit; the third detection unit is used for detecting a third opening operation aiming at the pattern display function of the electric control luminescent glass rear cover, the third opening operation comprises moving an opening/closing virtual button aiming at the pattern display function of the electric control luminescent glass rear cover to a target position, the target position is any one of a plurality of positions displayed on a terminal interface corresponding to the pattern display function, and the plurality of positions are determined according to a plurality of preset display patterns; the third trigger unit is configured to trigger a target power-on instruction according to a mapping relationship between preset starting operation and a display pattern when the third detection unit detects the third starting operation, where the target power-on instruction carries a display parameter of a target display pattern corresponding to the third starting operation;

6. The apparatus of claim 5, wherein the control module comprises:

7. The apparatus of claim 5 or 6, wherein the receiving module comprises:

8. The apparatus of claim 7, wherein the receiving module further comprises: